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Mingzhe Wang; Yihe Tang; Jian Wang; Jia Deng
Abstract
We propose a deep learning-based approach to the problem of premise selection: selecting mathematical statements relevant for proving a given conjecture. We represent a higher-order logic formula as a graph that is invariant to variable renaming but still fully preserves syntactic and semantic information. We then embed the graph into a vector via a novel embedding method that preserves the information of edge ordering. Our approach achieves state-of-the-art results on the HolStep dataset, improving the classification accuracy from 83% to 90.3%.
Code Repositories
princeton-vl/FormulaNet
Official
pytorch
Benchmarks
| Benchmark | Methodology | Metrics |
|---|---|---|
| automated-theorem-proving-on-holstep | FormulaNet-basic | Classification Accuracy: 0.891 |
| automated-theorem-proving-on-holstep | FormulaNet | Classification Accuracy: 0.903 |
| automated-theorem-proving-on-holstep-1 | FormulaNet-basic | Classification Accuracy: 0.890 |
| automated-theorem-proving-on-holstep-1 | FormulaNet | Classification Accuracy: 0.900 |
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